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A driver circuit comprising an insulated gate bipolar transistor having a collector coupled to a voltage supply, an emitter coupled to a source of reference potential, and a gate configured to receive a control signal from a driver circuit, and a desaturation circuit conductively coupled between an

A driver circuit comprising an insulated gate bipolar transistor having a collector coupled to a voltage supply, an emitter coupled to a source of reference potential, and a gate configured to receive a control signal from a driver circuit, and a desaturation circuit conductively coupled between an insulated gate and a collector of the insulated gate bipolar transistor to desaturate the insulated gate. The desaturation circuit includes a series coupled bias voltage source, uni-directionally conducting element and switch.

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What is claimed is: 1. A circuit comprising: an insulated gate bipolar transistor having a collector, an emitter and a gate, the collector coupled to a first reference voltage and the emitter coupled to a second reference voltage, the insulated gate bipolar transistor is coupled in parallel to a fi

What is claimed is: 1. A circuit comprising: an insulated gate bipolar transistor having a collector, an emitter and a gate, the collector coupled to a first reference voltage and the emitter coupled to a second reference voltage, the insulated gate bipolar transistor is coupled in parallel to a first diode across the collector and the emitter; a current amplifier having an input and an output, the output coupled to the gate and provide a control signal to the gate; and a desaturation circuit conductively coupled between the input and the collector to desaturate the gate, the desaturation circuit including a second diode, a voltage source, and a switch coupled in series, wherein the voltage source includes a capacitor and a zener diode coupled in parallel and the switch is coupled between the input of the current amplifier and the voltage source. 2. The driver circuit of claim 1, wherein the current amplifier comprises a push-pull amplifier. 3. The driver circuit of claim 1, wherein the switch comprises a transistor. 4. The driver circuit of claim 3, wherein the switch further comprises a metal oxide semiconductor field effect transistor (MOSFET). 5. A driver circuit comprising: an insulated gate bipolar transistor having a collector to couple through a load to a voltage supply, an emitter coupled to a source of reference potential, and a gate configured to receive a control signal from a driver circuit; and a desaturation circuit conductively coupled between an insulated gate and a collector of the insulated gate bipolar transistor to desaturate the insulated gate, the desaturation circuit including a series coupled bias voltage source, a first diode, and a switch, and a short circuit detection circuit coupled to the desaturation circuit to lower the voltage at the gate of the insulated gate bipolar transistor when the load is short circuited to apply the voltage supply directly to the collector of the insulated gate bipolar transistor. 6. The driver circuit of claim 5, wherein the short circuit detection circuit is a series combination of a zener diode and a second diode. 7. A driver circuit comprising: an insulated gate bipolar transistor having a collector to couple through a load to a voltage supply, an emitter coupled to a source of reference potential, and a gate configured to receive a control signal from a driver circuit; and a desaturation circuit conductively coupled between an insulated gate and a collector of the insulated gate bipolar transistor to desaturate the insulated gate, the desaturation circuit including a series coupled bias voltage source, a first diode, and a switch, and a short circuit detection circuit coupled to the desaturation circuit to lower the voltage at the gate of the insulated gate bipolar transistor when the load is short circuited to apply the voltage supply directly to the collector of the insulated gate bipolar transistor, wherein the short circuit detection circuit is a comparator coupled to provide an output signal to turn off the insulated gate bipolar transistor when the load is short circuited to apply the voltage supply directly to the collector of the insulated gate bipolar transistor. 8. A half-bridge circuit, comprising: a high-side insulated gate bipolar transistor (IGBT) coupled between an input voltage and a first node, the high-side IGBT coupled in parallel to a first diode; a low-side IGBT; coupled between the first node and a reference voltage, the low-side IGBT coupled in parallel to a second diode; a high-side desaturation circuit electrically coupled between an insulated gate and a collector of the high-side IGBT; a low-side desaturation circuit electrically coupled between an insulated gate and a collector of the low-side IGBT; wherein the high-side IGBT and the low-side IGBT are configured to switch between a conducting state and a blocking state and each of the high-side desaturation circuit and the low-side desaturation circuit includes a diode, a voltage source, and a switch coupled in series, wherein the voltage source includes a capacitor and a zener diode coupled in parallel and the switch is coupled between the input of the current amplifier and the voltage source. 9. The circuit of claim 8, further comprises a micro-controller, a first logic circuit and a second logic circuit, wherein the first logic circuit drives the high-side IGBT and the second logic circuit drives the low-side IGBT. 10. The circuit of claim 8, wherein the switch includes a transistor. 11. The circuit of claim 8, wherein the transistor is a metal oxide semiconductor field effect transistor (MOSFET). 12. A three-phase inverter circuit, comprising: a first switching module coupled to a second switching module and a third switching module, wherein each of the first switching module, the second switching module and the third switching module comprising: a high-side insulated gate bipolar transistor (IGBT) coupled between an input voltage and a first node, the high-side IGBT coupled in parallel to a first diode; a low-side IGBT; coupled between the first node and a reference voltage, the low-side IGBT coupled in parallel to a second diode; a high-side desaturation circuit electrically coupled between an insulated gate and a collector of the high-side IGBT; a low-side desaturation circuit electrically coupled between an insulated gate and a collector of the low-side IGBT; wherein the high-side IGBT and the low-side IGBT are configured to switch between a conducting state and a blocking state and each of the high-side desaturation circuit and the low-side desaturation circuit includes a diode, a voltage source, and a switch coupled in series; and wherein the voltage source includes a capacitor and a zener diode coupled in parallel and the switch is coupled between the input of the current amplifier and the voltage source. 13. The three-phase inverter circuit of claim 12, further comprises a micro-controller, a first logic circuit and a second logic circuit, wherein the first logic circuit drives the high-side IGBT and the second logic circuit drives the low-side IGBT. 14. The circuit of claim 12, wherein the switch includes a transistor. 15. The circuit of claim 14, wherein the transistor includes a MOSFET. 16. The circuit of claim 12, further comprising a short-circuit detection circuit.